Volcanoes are prominent in the news lately with eruptions near Barbardunga volcano in Iceland and Tavurvur volcano in Rabaul, Papua New Guinea, as well as Kilauea volcano’s continuing eruption on Hawaii Island. But to prevent any possible confusion, the volcanic
Volcanoes are prominent in the news lately with eruptions near Barbardunga volcano in Iceland and Tavurvur volcano in Rabaul, Papua New Guinea, as well as Kilauea volcano’s continuing eruption on Hawaii Island. But to prevent any possible confusion, the volcanic activity in Iceland and Papua New Guinea is not affecting the eruption in Hawaii.
The U.S. Geological Survey’s Hawaiian Volcano Observatory is closely tracking the Kilauea lava flow, which is threatening residential areas in the Puna District. We are also maintaining situational awareness of the far-away eruptions while other scientists within the USGS Volcano Hazards Programs provide assistance to Icelandic and New Guinea colleagues.
HVO scientists also continue to monitor the five other potentially active volcanoes on and around the islands of Hawaii and Maui — Mauna Loa, Hualalai, Mauna Kea, Haleakala, and the submarine volcano Loihi. With the exception of Mauna Loa, all of these volcanoes have been quiet over the past several years.
Mauna Loa, the most voluminous active volcano on Earth, has erupted twice in the past 40 years — in 1975 and 1984 — and a large intrusion of magma swelled its summit, but did not erupt, in 2002-09. During the “quiet” period after that intrusion, HVO took the opportunity to increase the sensitivity of our monitoring instruments on Mauna Loa.
Starting in 2009, HVO’s monitoring networks on Hawaii volcanoes were significantly upgraded with funding from the American Reinvestment and Recovery Act. As of 2012, our monitoring networks are capable of detecting changes in volcanic processes that are much smaller than could be detected by networks installed during the past two eruptions of Mauna Loa.
That upgrade has already paid off. Beginning in March 2013, and continuing into 2014, HVO’s networks have detected small sporadic swarms of earthquakes deep beneath the west flank and summit of Mauna Loa. These swarms are located in the same general area as earthquake swarms that preceded the 1975 and 1984 eruptions, but the 2013-14 earthquakes have been significantly weaker than those recorded in 1975 and 1984. Many of the most recent swarms were followed by shallower earthquakes at the summit of Mauna Loa and can be seen on HVO’s interactive earthquake pages — hvo.wr.usgs.gov/seismic.
Prior to the 1975 and 1984 eruptions of Mauna Loa, HVO detected dozens of magnitude 3 earthquakes and a handful of magnitude 4 earthquakes 1.5 or more years before the eruptions started. The strongest earthquakes detected beneath the west flank of Mauna Loa in 2013-14 have been weaker than magnitude 3. While the current activity is smaller in magnitude, it is clear that some of the same volcanic processes may be at work.
Since 2009, the southeast flank of Mauna Loa has been slowly moving southeastward and there have been no signs of magma intrusion beneath the summit. Subtle changes in the deformation pattern began in the spring of 2014. HVO’s GPS network started to detect weak inflation of sources beneath the summit, the same sources that inflated during the period 2002-09. The amount of inflation detected so far in 2014 is very small compared to previous inflations.
While we can detect and monitor these weak signals within Mauna Loa, they do not yet indicate that an eruption is necessarily coming. The recent changes are not yet equivalent to those observed before the 1975 and 1984 eruptions, but because we are able to better resolve these early signals, we are closely watching them. Should they increase in intensity or start to change at a more rapid rate, HVO will elevate the Alert Level Code for Mauna Loa to indicate its relative state of unrest and whether or not it may be headed toward an eruption.
Given its current level of activity, updates for Mauna Loa are posted monthly on the HVO website and can be viewed at hvo.wr.usgs.gov/activity/maunaloastatus.php. Should Mauna Loa activity increase, updates will be posted more frequently.
An important reminder about Kilauea volcano’s ongoing eruption: You can track the current lava flow activity through HVO’s website, hvo.wr.usgs.gov. Daily eruption updates are posted every morning, and new maps and photos are posted after every HVO overflight of the lava flow. You can also call 967-8862 to hear the eruption update.
Kilauea activity update
The summit lava lake within Halemaumau Crater produced nighttime glow visible via HVO’s webcam over the past week. The lava lake level ranged from 165 to 215 feet below the rim of the overlook crater.
On Kilauea volcano’s east rift zone, the June 27 lava flow from Puu Oo remained active. The tip of the flow was 8.3 miles from the vent and 0.7 mile from the east boundary of the Wao Kele o Puna Forest Reserve as of Thursday (the time of this writing). Within the Puu Oo crater, glow was visible above several small lava ponds and outgassing openings in the crater floor.
No earthquakes were reported felt during the past week on Hawaii Island.
Visit the HVO website for Volcano Watch articles and Kilauea, Mauna Loa and Hualalai activity updates, volcano photos and earthquakes information; call 967-8862 for a Kilauea summary; email questions to askhvo@usgs.gov.
Volcano Watch is a weekly article and activity update written by scientists at the U.S. Geological Survey’s Hawaiian Volcano Observatory.